Infrared Laser Spectroscopy Section, Bhabha Atomic Research Centre, Trombay, Mumbai 400085, India.
Radiation & Photochemistry Division, Bhabha Atomic Research Centre, Trombay, Mumbai 400085, India.
J Phys Chem A. 2023 May 25;127(20):4429-4439. doi: 10.1021/acs.jpca.3c00902. Epub 2023 May 15.
Plasmon-mediated chemical reactions (PMCRs) have attracted considerable interest in recent times. The PMCR initiated by hot carriers is known to be influenced by the type of metals and the excitation wavelength. Herein, we have carried out the surface-enhanced Raman scattering (SERS) investigation of rhodanine (Rd), an important pharmacologically active heterocyclic compound, adsorbed on silver and gold nanoparticles (AgNP and AuNP) using 514.5 and 632.8 nm lasers. The prominent Raman band at 1566 cm observed in the SERS spectra is attributed to the characteristic ν(C═C) stretching vibration of the Rd dimer and not of Rd tautomers. The chemical transformation of Rd to Rd dimer on metal surfaces is plausibly triggered by the indirect transfer of energetic hot electrons generated during the non-radiative decay of plasmon. The mechanism involved in the dimerization of Rd via the indirect transfer of hot electrons is also presented. The effect of wavelength on the dimerization of Rd is also observed on the AgNP surface, which indicates that the dimerization occurs more efficiently on the AgNP surface with excitation at 514.5 nm wavelength.
等离子体介导的化学反应 (PMCR) 在最近引起了相当大的兴趣。已知由热载流子引发的 PMCR 受到金属类型和激发波长的影响。在此,我们使用 514.5nm 和 632.8nm 激光对吸附在银和金纳米粒子 (AgNP 和 AuNP) 上的重要药理学活性杂环化合物罗丹宁 (Rd) 进行了表面增强拉曼散射 (SERS) 研究。在 SERS 光谱中观察到的 1566cm 处的突出拉曼带归因于 Rd 二聚体的特征 ν(C═C)伸缩振动,而不是 Rd 互变异构体。在金属表面上,Rd 向 Rd 二聚体的化学转化很可能是由等离子体非辐射衰减过程中产生的高能热电子的间接转移引发的。还提出了通过热电子的间接转移使 Rd 二聚化的机制。在 AgNP 表面上也观察到波长对 Rd 二聚化的影响,这表明在 514.5nm 波长激发时,AgNP 表面上的二聚化更有效。
